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Object[Data, MeltingCurve]

Measurements of absorbance, fluorescence, static light scattering, and/or dynamic light scattering at specific wavelengths with varying temperatures.

Organizational Information

    Name

    Name of this Object.
    Format: Single
    Class: String
    Programmatic Pattern: _String
    Pattern Description: A string.

    ID

    ID of this Object.
    Format: Single
    Class: String
    Programmatic Pattern: _String
    Pattern Description: The ID of this object.

    Object

    Object of this Object.
    Format: Single
    Class: Expression
    Programmatic Pattern: Object[Data, MeltingCurve, _String]
    Pattern Description: The object reference of this object.

    Type

    Type of this Object.
    Format: Single
    Class: Expression
    Programmatic Pattern: Object[Data, MeltingCurve]
    Pattern Description: Object[Data, MeltingCurve]

    Notebook

    Notebook this object belongs to.
    Format: Single
    Class: Link
    Programmatic Pattern: _Link
    Pattern Description: An object of that matches ObjectP[Object[LaboratoryNotebook]].
    Relation: Object[LaboratoryNotebook][Objects]

    Replicates

    Data acquired under replicated experimental conditions to this data.
    Format: Multiple
    Class: Link
    Programmatic Pattern: _Link
    Relation: Object[Data][Replicates]

General

Method Information

    DilutionCurve

    The data acquired for a single analyte at different dilutions.
    Format: Multiple
    Class: Link
    Programmatic Pattern: _Link
    Relation: Object[Data, MeltingCurve][DilutionCurve]

    Well

    The well position of this sample in the assay plate during measurement.
    Format: Single
    Class: String
    Programmatic Pattern: WellP

    StaticLightScattering Excitation

    The wavelength(s) used for static light scattering measurements.
    Format: Multiple
    Class: Real
    Unit: 1 nanometer
    Programmatic Pattern: GreaterP[0 Objects`Private`NanoMeter]

    CapillaryWell

    The capillary well position of this sample during measurement.
    Format: Single
    Class: String
    Programmatic Pattern: WellP

    CapillaryStrip

    The capillary strip position of this sample during measurement.
    Format: Single
    Class: Link
    Programmatic Pattern: _Link
    Relation: Object[Container, Plate, CapillaryStrip]

Optical Information

    MinWavelength

    The lower limit of the wavelength range over which sample absorbance is read.
    Format: Single
    Class: Real
    Unit: 1 nanometer
    Programmatic Pattern: GreaterEqualP[0 Nano Meter]

    MaxWavelength

    The upper limit of the wavelength range over which sample absorbance is read.
    Format: Single
    Class: Real
    Unit: 1 nanometer
    Programmatic Pattern: GreaterEqualP[0 Nano Meter]

Detection

    OptimizeFluorescenceLaser Power

    Indicates if the fluorescence laser power filter is adjusted prior to sample measurement.
    Format: Single
    Class: Boolean
    Programmatic Pattern: BooleanP

    OptimizeStaticLightScattering LaserPower

    Indicates if the static light scattering laser power filter is matched to the optimal fluorescence laser power prior to sample measurement.
    Format: Single
    Class: Boolean
    Programmatic Pattern: BooleanP

    LaserOptimizationEmission WavelengthRange

    The wavelength(s) of the sample's spectra used to evaluate optimal laser setting.
    Format: Single
    Class: Expression
    Programmatic Pattern: {GreaterP[0 Nanometer]..}

    LaserOptimizationTarget EmissionIntensityRange

    The intensity range, expressed as a counts, used to evaluate optimal laser setting.
    Format: Single
    Class: Expression
    Programmatic Pattern: {GreaterP[0]..}

    FluorescenceLaserPower OptimizationResult

    Indicates if the fluorescence laser power filter optimization was successful. "FailureLowSignal" indicates the laser power could not be optimized because signal intensity at 100% laser power is lower than the LaserOptimizationTargetEmissionIntensityRange. "FailureSignalSaturation" indicates the laser power could not be optimized because signal intensity at 13% laser power is higher than the LaserOptimizationTargetEmissionIntensityRange.
    Format: Single
    Class: Expression
    Programmatic Pattern: LaserOptimizationResultP

Experimental Results

    MeltingCurve

    The measurement signal as a function of temperature during the first heating cycle. If MinWavelength and MaxWavelength are specified, the wavelength for this field will be 280 Nanometer if within the range and the sample is a peptide, 260 Nanometer if the sample is not a peptide and this value is within the MinWavelength/MaxWavelength range, or the MinWavelength otherwise.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, ArbitraryUnit}..}]

    CoolingCurve

    The measurement signal as a function of temperature during the first cooling cycle. If MinWavelength and MaxWavelength are specified, the wavelength for this field will be 280 Nanometer if within the range and the sample is a peptide, 260 Nanometer if the sample is not a peptide and this value is within the MinWavelength/MaxWavelength range, or the MinWavelength otherwise.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, ArbitraryUnit}..}]

    SecondaryMeltingCurve

    The measurement signal as a function of temperature during the second heating cycle. If MinWavelength and MaxWavelength are specified, the wavelength for this field will be 280 Nanometer if within the range and the sample is a peptide, 260 Nanometer if the sample is not a peptide and this value is within the MinWavelength/MaxWavelength range, or the MinWavelength otherwise.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, ArbitraryUnit}..}]

    SecondaryCoolingCurve

    The measurement signal as a function of temperature during the second cooling cycle. If MinWavelength and MaxWavelength are specified, the wavelength for this field will be 280 Nanometer if within the range and the sample is a peptide, 260 Nanometer if the sample is not a peptide and this value is within the MinWavelength/MaxWavelength range, or the MinWavelength otherwise.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, ArbitraryUnit}..}]

    TertiaryMeltingCurve

    The measurement signal as a function of temperature during the third heating cycle. If MinWavelength and MaxWavelength are specified, the wavelength for this field will be 280 Nanometer if within the range and the sample is a peptide, 260 Nanometer if the sample is not a peptide and this value is within the MinWavelength/MaxWavelength range, or the MinWavelength otherwise.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, ArbitraryUnit}..}]

    TertiaryCoolingCurve

    The measurement signal as a function of temperature during the third cooling cycle If MinWavelength and MaxWavelength are specified, the wavelength for this field will be 280 Nanometer if within the range and the sample is a peptide, 260 Nanometer if the sample is not a peptide and this value is within the MinWavelength/MaxWavelength range, or the MinWavelength otherwise.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, ArbitraryUnit}..}]

    QuaternaryMeltingCurve

    The measurement signal as a function of temperature during the fourth heating cycle. If MinWavelength and MaxWavelength are specified, the wavelength for this field will be 280 Nanometer if within the range and the sample is a peptide, 260 Nanometer if the sample is not a peptide and this value is within the MinWavelength/MaxWavelength range, or the MinWavelength otherwise.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, ArbitraryUnit}..}]

    QuaternaryCoolingCurve

    The measurement signal as a function of temperature during the fourth cooling cycle If MinWavelength and MaxWavelength are specified, the wavelength for this field will be 280 Nanometer if within the range and the sample is a peptide, 260 Nanometer if the sample is not a peptide and this value is within the MinWavelength/MaxWavelength range, or the MinWavelength otherwise.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, ArbitraryUnit}..}]

    QuinaryMeltingCurve

    The measurement signal as a function of temperature during the fourth heating cycle. If MinWavelength and MaxWavelength are specified, the wavelength for this field will be 280 Nanometer if within the range and the sample is a peptide, 260 Nanometer if the sample is not a peptide and this value is within the MinWavelength/MaxWavelength range, or the MinWavelength otherwise.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, ArbitraryUnit}..}]

    QuinaryCoolingCurve

    The measurement signal as a function of temperature during the fourth cooling cycle If MinWavelength and MaxWavelength are specified, the wavelength for this field will be 280 Nanometer if within the range and the sample is a peptide, 260 Nanometer if the sample is not a peptide and this value is within the MinWavelength/MaxWavelength range, or the MinWavelength otherwise.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, ArbitraryUnit}..}]

    MeltingCurve3D

    The measurement signal at each wavelength for each temperature point during the first heating cycle.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 nanometer', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, Nanometer, ArbitraryUnit}..}]

    CoolingCurve3D

    The measurement signal at each wavelength for each temperature point during the first cooling cycle.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 nanometer', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, Nanometer, ArbitraryUnit}..}]

    SecondaryMeltingCurve3D

    The measurement signal at each wavelength for each temperature point during the second heating cycle.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 nanometer', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, Nanometer, ArbitraryUnit}..}]

    SecondaryCoolingCurve3D

    The measurement signal at each wavelength for each temperature point during the second cooling cycle.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 nanometer', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, Nanometer, ArbitraryUnit}..}]

    TertiaryMeltingCurve3D

    The measurement signal at each wavelength for each temperature point during the third heating cycle.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 nanometer', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, Nanometer, ArbitraryUnit}..}]

    TertiaryCoolingCurve3D

    The measurement signal at each wavelength for each temperature point during the third cooling cycle.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 nanometer', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, Nanometer, ArbitraryUnit}..}]

    QuaternaryMeltingCurve3D

    The measurement signal at each wavelength for each temperature point during the fourth heating cycle.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 nanometer', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, Nanometer, ArbitraryUnit}..}]

    QuaternaryCoolingCurve3D

    The measurement signal at each wavelength for each temperature point during the fourth cooling cycle.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 nanometer', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, Nanometer, ArbitraryUnit}..}]

    QuinaryMeltingCurve3D

    The measurement signal at each wavelength for each temperature point during the fifth heating cycle.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 nanometer', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, Nanometer, ArbitraryUnit}..}]

    QuinaryCoolingCurve3D

    The measurement signal at each wavelength for each temperature point during the fifth cooling cycle.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 nanometer', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, Nanometer, ArbitraryUnit}..}]

    AggregationCurve

    The recorded light scattering intensity (counts) as a function of increasing temperature during the first heating cycle.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, ArbitraryUnit}..}]

    AggregationRecoveryCurve

    The recorded light scattering intensity (counts) as a function of decreasing temperature during the first cooling cycle.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, ArbitraryUnit}..}]

    SecondaryAggregationCurve

    The recorded light scattering intensity (counts) as a function of increasing temperature during the second heating cycle.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, ArbitraryUnit}..}]

    SecondaryAggregationRecovery Curve

    The recorded light scattering intensity (counts) as a function of decreasing temperature during the second cooling cycle.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, ArbitraryUnit}..}]

    TertiaryAggregationCurve

    The recorded light scattering intensity (counts) as a function of increasing temperature during the third heating cycle.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, ArbitraryUnit}..}]

    TertiaryAggregationRecovery Curve

    The recorded light scattering intensity (counts) as a function of decreasing temperature during the third cooling cycle.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, ArbitraryUnit}..}]

    AggregationCurve3D

    The recorded light scattering intensity (counts) at each wavelength as a function of increasing temperature during the first heating cycle.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 nanometer', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, Nanometer, ArbitraryUnit}..}]

    AggregationRecoveryCurve3D

    The recorded light scattering intensity (counts) at each wavelength as a function of decreasing temperature during the first cooling cycle.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 nanometer', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, Nanometer, ArbitraryUnit}..}]

    SecondaryAggregationCurve3D

    The recorded light scattering intensity (counts) at each wavelength as a function of increasing temperature during the second heating cycle.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 nanometer', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, Nanometer, ArbitraryUnit}..}]

    SecondaryAggregationRecovery Curve3D

    The recorded light scattering intensity (counts) at each wavelength as a function of decreasing temperature during the second cooling cycle.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 nanometer', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, Nanometer, ArbitraryUnit}..}]

    TertiaryAggregationCurve3D

    The recorded light scattering intensity (counts) at each wavelength as a function of increasing temperature during the third heating cycle.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 nanometer', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, Nanometer, ArbitraryUnit}..}]

    TertiaryAggregationRecovery Curve3D

    The recorded light scattering intensity (counts) at each wavelength as a function of decreasing temperature during the third cooling cycle.
    Format: Single
    Class: QuantityArray
    Unit: ['1 degree Celsius', '1 nanometer', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityArrayP[{{Celsius, Nanometer, ArbitraryUnit}..}]

    DynamicLightScattering

    Indicates if a DLS measurement of each sample is made before and after the thermal ramping.
    Format: Single
    Class: Expression
    Programmatic Pattern: BooleanP

    DynamicLightScattering Measurements

    Indicates if a DLS measurement of each sample is made before thermal ramping, after thermal ramping, or both before and after thermal ramping.
    Format: Multiple
    Class: Expression
    Programmatic Pattern: Before | After

    NumberOfDynamicLight ScatteringAcquisitions

    For each DLS measurement, the number of series of speckle patterns that are each collected over the AcquisitionTime to create the measurement's autocorrelation curve.
    Format: Single
    Class: Integer
    Programmatic Pattern: GreaterP[0, 1]

    DynamicLightScattering AcquisitionTime

    For each DLS measurement, the length of time that each acquisition generates speckle patterns to create the measurement's autocorrelation curve.
    Format: Single
    Class: Real
    Unit: 1 second
    Programmatic Pattern: GreaterP[0 Second]

    AutomaticDynamicLight ScatteringLaserSettings

    Indicates if the DynamicLightScatteringLaserPower and DynamicLightScatteringDiodeAttenuation are automatically set at the beginning of the assay by the Instrument to levels ideal for the samples.
    Format: Single
    Class: Expression
    Programmatic Pattern: BooleanP

    DynamicLightScatteringLaser Power

    The percent of the max dynamic light scattering laser power that is used to make DLS measurements. The laser level is optimized at run time by the instrument software when AutomaticDynamicLightScatteringLaserSettings is True and LaserLevel is Null.
    Format: Single
    Class: Real
    Unit: 1 percent
    Programmatic Pattern: GreaterP[0 Percent]

    DynamicLightScatteringDiode Attenuation

    The percent of scattered light signal that is allowed to reach the avalanche photodiode for DLS measurements. The attenuator level is optimized at run time by the instrument software when AutomaticDynamicLightScatteringLaserSettings is True and DiodeAttenuation is Null.
    Format: Single
    Class: Real
    Unit: 1 percent
    Programmatic Pattern: GreaterP[0 Percent]

    InitialDynamicLightScattering Temperature

    The temperature at which the particle DLS is measured before thermal ramping.
    Format: Single
    Class: Real
    Unit: 1 degree Celsius
    Programmatic Pattern: GreaterP[0 Celsius]

    InitialZAverageDiameter

    The average hydrodynamic diameter of particles in solution for the DLS measurement before thermal ramping.
    Format: Single
    Class: Real
    Unit: 1 nanometer
    Programmatic Pattern: GreaterEqualP[0 Nanometer]

    InitialZAverageDiffusion Coefficient

    Diffusion coefficeint calculated from the CorrelationCurve which is inversely proportional to particle size, for the DLS measurement before thermal ramping.
    Format: Single
    Class: Real
    Unit: 1 meter squared per second
    Programmatic Pattern: Meter Hold[GreaterEqualP[0 (Meter ------)]] Second

    InitialDiameterStandard Deviation

    The standard deviation of the ZAverageDiameter for the DLS measurement before thermal ramping.
    Format: Single
    Class: Real
    Unit: 1 nanometer
    Programmatic Pattern: GreaterEqualP[0 Nanometer]

    InitialPolydispersityIndex

    A measure of the heterogeneity of the calculated hydrodynamic diameters of particles in solution for the DLS measurement before thermal ramping.
    Format: Single
    Class: Real
    Programmatic Pattern: GreaterEqualP[0]

    InitialScatteredLight Intensity

    The amount of light that reaches the scattered light detector in counts per second for the DLS measurement before thermal ramping.
    Format: Single
    Class: Real
    Programmatic Pattern: GreaterEqualP[0]

    InitialCorrelationCurve

    A series of data points which describes the correlation between scattered light intensity over time for the sample for the DLS measurement before thermal ramping. This correlation typically decays from 1 to 0 over time.
    Format: Single
    Class: QuantityArray
    Unit: ['1 microsecond', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityCoordinatesP[{Micro Second, ArbitraryUnit}]

    InitialCorrelationCurveFit Variance

    A measure of the fit of multiple exponential decay function to the measured CorrelationCurve for the DLS measurement before thermal ramping.
    Format: Single
    Class: Real
    Programmatic Pattern: GreaterEqualP[0]

    InitialIntensityDistribution

    Trace of the calculated scattered light intensities versus hydrodynamic diameters of particles in solution for the DLS measurement before thermal ramping. Since larger particles scatter more light, larger particles have a higher scattered light intensity per particle in the IntensityDistribution.
    Format: Single
    Class: QuantityArray
    Unit: ['1 nanometer', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityCoordinatesP[{Nanometer, ArbitraryUnit}]

    InitialMassDistribution

    Trace of the calculated scattered light intensities versus hydrodynamic diameters of particles in solution for the DLS measurement before thermal ramping. In the MassDistribution, as opposed to the IntensityDistribution, the scattered light intensity at each hydrodynamic diameter is corrected for particle size, so this trace gives a more accurate representation of the number of particles of each size in solution.
    Format: Single
    Class: QuantityArray
    Unit: ['1 nanometer', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityCoordinatesP[{Nanometer, ArbitraryUnit}]

    FinalDynamicLightScattering Temperature

    The temperature at which the particle DLS is measured after thermal ramping.
    Format: Single
    Class: Real
    Unit: 1 degree Celsius
    Programmatic Pattern: GreaterP[0 Celsius]

    FinalZAverageDiameter

    The average hydrodynamic diameter of particles in solution for the DLS measurement after thermal ramping.
    Format: Single
    Class: Real
    Unit: 1 nanometer
    Programmatic Pattern: GreaterEqualP[0 Nanometer]

    FinalZAverageDiffusion Coefficient

    Diffusion coefficeint calculated from the CorrelationCurve which is inversely proportional to particle size, for the DLS measurement after thermal ramping.
    Format: Single
    Class: Real
    Unit: 1 meter squared per second
    Programmatic Pattern: Meter Hold[GreaterEqualP[0 (Meter ------)]] Second

    FinalDiameterStandard Deviation

    The standard deviation of the ZAverageDiameter for the DLS measurement after thermal ramping.
    Format: Single
    Class: Real
    Unit: 1 nanometer
    Programmatic Pattern: GreaterEqualP[0 Nanometer]

    FinalPolydispersityIndex

    A measure of the heterogeneity of the calculated hydrodynamic diameters of particles in solution for the DLS measurement after thermal ramping.
    Format: Single
    Class: Real
    Programmatic Pattern: GreaterEqualP[0]

    FinalScatteredLightIntensity

    The amount of light that reaches the scattered light detector in counts per second for the DLS measurement after thermal ramping.
    Format: Single
    Class: Real
    Programmatic Pattern: GreaterEqualP[0]

    FinalCorrelationCurve

    A series of data points which describes the correlation between scattered light intensity over time for the sample for the DLS measurement after thermal ramping. This correlation typically decays from 1 to 0 over time.
    Format: Single
    Class: QuantityArray
    Unit: ['1 microsecond', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityCoordinatesP[{Micro Second, ArbitraryUnit}]

    FinalCorrelationCurveFit Variance

    A measure of the fit of multiple exponential decay function to the measured CorrelationCurve for the DLS measurement after thermal ramping.
    Format: Single
    Class: Real
    Programmatic Pattern: GreaterEqualP[0]

    FinalIntensityDistribution

    Trace of the calculated scattered light intensities versus hydrodynamic diameters of particles in solution for the DLS measurement after thermal ramping. Since larger particles scatter more light, larger particles have a higher scattered light intensity per particle in the IntensityDistribution.
    Format: Single
    Class: QuantityArray
    Unit: ['1 nanometer', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityCoordinatesP[{Nanometer, ArbitraryUnit}]

    FinalMassDistribution

    Trace of the calculated scattered light intensities versus hydrodynamic diameters of particles in solution for the DLS measurement after thermal ramping. In the MassDistribution, as opposed to the IntensityDistribution, the scattered light intensity at each hydrodynamic diameter is corrected for particle size, so this trace gives a more accurate representation of the number of particles of each size in solution.
    Format: Single
    Class: QuantityArray
    Unit: ['1 nanometer', '1 ArbitraryUnits']
    Programmatic Pattern: QuantityCoordinatesP[{Nanometer, ArbitraryUnit}]

Data Processing

    RawDataFiles

    The file(s) containing the raw unprocessed data generated by the instrument.
    Format: Multiple
    Class: Link
    Programmatic Pattern: _Link
    Relation: Object[EmeraldCloudFile]

    DataFiles

    The instrument software specific file(s) containing the processed data generated by the instrument.
    Format: Multiple
    Class: Link
    Programmatic Pattern: _Link
    Relation: Object[EmeraldCloudFile]

Analysis & Reports

    MeltingAnalyses

    Melting point analysis performed on this data.
    Format: Multiple
    Class: Link
    Programmatic Pattern: _Link
    Relation: Object[Analysis][Reference]

    FluorescenceSpectraAnalyses

    Fluorescence spectra analysis performed on this data (and its replicates).
    Format: Multiple
    Class: Link
    Programmatic Pattern: _Link
    Relation: Object[Analysis][Reference]

    AggregationAnalyses

    Aggregation temperature analyses done on this data (and its replicates).
    Format: Multiple
    Class: Link
    Programmatic Pattern: _Link
    Relation: Object[Analysis][Reference]

    ThermalShiftAnalyses

    Thermal shift analyses relative to a reference sample done on this data (and its replicates).
    Format: Multiple
    Class: Link
    Programmatic Pattern: _Link
    Relation: Object[Analysis][Reference]

    InitialIntensityPeaksAnalyses

    Peak picking analyses performed on the InitialIntensityDistribution.
    Format: Multiple
    Class: Link
    Programmatic Pattern: _Link
    Relation: Object[Analysis][Reference]

    FinalIntensityPeaksAnalyses

    Peak picking analyses performed on the FinalIntensityDistribution.
    Format: Multiple
    Class: Link
    Programmatic Pattern: _Link
    Relation: Object[Analysis][Reference]

    InitialMassPeaksAnalyses

    Peak picking analyses performed on the InitialMassDistribution.
    Format: Multiple
    Class: Link
    Programmatic Pattern: _Link
    Relation: Object[Analysis][Reference]

    FinalMassPeaksAnalyses

    Peak picking analyses performed on the FinalMassDistribution.
    Format: Multiple
    Class: Link
    Programmatic Pattern: _Link
    Relation: Object[Analysis][Reference]

    DynamicLightScattering Analyses

    Analyses of the initial and final dynamic light scattering correlation curves.
    Format: Multiple
    Class: Link
    Programmatic Pattern: _Link
    Relation: Object[Analysis][Reference]

    MeltingTemperature

    The temperature at the first inflection point in the melting or cooling curve for each cycle. Additional melt temperatures can be found in the corresponding analysis object.
    Format: Multiple
    Class: Real
    Unit: 1 degree Celsius
    Programmatic Pattern: GreaterP[0 Kelvin]

    AggregationTemperature

    The temperature at the inflection point of the aggregation curve for each heating cycle or cooling cycle.
    Format: Multiple
    Class: Real
    Unit: 1 degree Celsius
    Programmatic Pattern: GreaterP[0 Kelvin]

    AggregationOnsetTemperature

    The temperature at the AggregationThreshold for each heating cycle or cooling cycle.
    Format: Multiple
    Class: Real
    Unit: 1 degree Celsius
    Programmatic Pattern: GreaterP[0 Kelvin]
Last modified on Mon 26 Sep 2022 15:43:44
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